ORF » Species Summary » Xenopus laevis » col16a1.L cDNA ORF clone

col16a1.L cDNA ORF clone, Xenopus laevis(African clawed frog)

The following col16a1.L gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the col16a1.L cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OAf20191 XM_018246752.1
Latest version!		 Xenopus laevis collagen, type XVI, alpha 1 L homeolog (col16a1.L), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
OAf20192 XM_018246753.1
Latest version!		 Xenopus laevis collagen, type XVI, alpha 1 L homeolog (col16a1.L), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
OAf20193 XM_018246754.1
Latest version!		 Xenopus laevis collagen, type XVI, alpha 1 L homeolog (col16a1.L), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
OAf20194 XM_018246755.1
Latest version!		 Xenopus laevis collagen, type XVI, alpha 1 L homeolog (col16a1.L), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    col16a1.L ( XM_018246752.1 ) cDNA ORF clone, Xenopus laevis(African clawed frog) -> XP_018102241.1 Xenopus laevis collagen, type XVI, alpha 1 L homeolog (col16a1.L), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OAf20191
    Clone ID Related Accession (Same CDS sequence) XM_018246752.1
    Accession Version XM_018246752.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4677bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-09-19
    Organism Xenopus laevis(African clawed frog)
    Product collagen alpha-1(XVI) chain isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030726.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus laevis Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGTGGTTAC TCCTGACGTC TGTGTTTTGG TTGCTCAGGT GCTTAGCTCT CAGCGAAGGA 
    AGAATATTAC CTCACACAGG AGAACAGTGT CCAAGTTTAC AACATGAAGG AATAAACACT 
    AATGGAAACT CAAATAGTAC AGGATTCAAT CTCATCCGTA GATTTTCTCT CCAGAAGATG 
    AGCTCAGTGA AAAAAATTCG AAACCCTAAA GGACCTGTTA TCATGCGTCT TGGAGGGCCC 
    AAGCTAGTGG AGCCAACATT ACAGGTGTTC CCTCACGGCA TCCCTGATGA GTTTACTCTT 
    GTCATATCCT TGTTGTTAAA GAAGCAGACA ACTGATGAAG ATTGGTACCT CTTCCAAGTC 
    AGTGACCAGA TGGGATACCC ACAGGTCTCA CTCAGTATTA ATGGCGCAGA CAGGAGTCTG 
    GAATTTCGTG CCAAAGGACG TGACAAAGAG TATGTGAGCT GTACATTTGC TGGGCAAGGG 
    GTGTATTCTT TATTTGACAA TGGATGGCAC AAGATTGTGC TAAGTGTGCA GGAGAAAACG 
    GTGTCTGTTC ACATCGACTG CAGCTTTATC TCCAGCAAAC CCATTGAGCC CAGAAGGGCA 
    CTGGCCAGTG AAGGACACAC CTTTATAGGT TTGGATGCAG CTAATGGTGT ACCAGTTCAT 
    TTTGATATTC AGAAGTTCCT TATGTACTGT GATCCCCTAA TGGCAATGCA AGAGGGGTGC 
    TGTGAGATCC GACCATCTGG TTGCAACCCT GAGGCTCCCA AGACAAGAAG AAATGTGGAA 
    GTGGCTGAAA GTGTACAGAA TACCAACCTT ATAGACATAC CTCATAAAAC CAAGCAGCAA 
    GGATATACTA GATGCTTCTG TCTGGAGGAG GCTTTGGAAA GAAGGGGTGG AAAAGTGTCT 
    TCTGGAATGC CTGTTGAGTT GCCTGCAGAG TGTGCATCAT GTGCTTTCCA GCTCCCTGAA 
    AGAAATGTCA CAATGGGACC TCCTGGCCCC AGGGGGTTGA AAGGGGAAGG AGGACAGCCT 
    GGAACTTATG GACTAAAAGG GGAGAAAGGA GAGAGGGGGA CAGACTGTAT TCGGACTTCA 
    GCTCAAGGAC CATTACAGTG CGCTGAGGGT ACAAAGGGAG AGAAAGGAGA AAGTGGGCAA 
    GAGGGACCTA GAGGATATGA AGGGTCATCA GGTCAAGATG GGGAAAAAGG TCAAAAAGGT 
    GAAAGGGGAG ACTTTGGAAT GAAAGGATCA CATGGATCAC CAGGACGAGA TGGAAGACCT 
    GGGGAAATCT GTGTGATGGG ACCTAAAGGT CAAAAGGGAC AGACTGGCAT TGTTGGTCCA 
    GAAGGTCTTG CAGGAGAACC AGGTCCTCCA GGAAAACCAG GACCTCCAGG AATTGGGCTG 
    CCAGGAAAAC CTGGTGATCC TGGTGGCCCA CTTGGCCCTC CTGGGACAAA GGGCACTGCA 
    GGAACTCCTG GAAGAGATGG GGCTGTGGGA AAACCAGGTA AACCAGGCCT CCCAGGACTC 
    AGAGGAGAAA AGGGGGATCA ATGTGAGCCA TGCTCATCTT TGCCTACCGA TGGAACAAAC 
    GTGATCAGTA TTCCAGGCCA CAAAGGACAG AAAGGAGAAA TGGGAATACC AGGAATTGGG 
    GAGTCTGGGA AAGCAGGAAT CAAAGGTGAA CCAGGCATAA AAGGTGAACA GGGTTCCCTA 
    GGTTCAAATG GTATAAAAGG GGAGAAGGGG GAACCCTGCG CTTCCTGTCC AACACTATCT 
    CCTGGCATGG CCTCAATACA GAACATACCA AAGGGACTGA AGGGAGAACC TGGGGAGACT 
    GGAGTTGGAG TGACTGGACT ACCAGGAAAA ATAGGGATAC CTGGATTGTC TGGGCCCAAA 
    GGAGAAAAGG GGGATTTTGG GCCTCAAGGA CCACCGGGAA CACCGGGCTC GCCAGGAGAA 
    CTAGGGAGAA TTGGACAAAC TGGAACTAAA GGAGAGAAGG GTGAGCCTTG CACTATGTGC 
    CCAAGTCTCC CAGCCGAAGT ATCAAAGCCA GATACTGTTA TTGCTATTCC CGGACCTCCT 
    GGACAAAAGG GAGAACCAGG AGAAGCTGGA AATGGACCAC CAGGAAAAAA CGGTAAACAA 
    GGGGAACCTG GAATGAAGGG GCGGAAAGGT GAGACTGGAG CAGCAGGGGA CCCTGGAATT 
    CCTGGAAGCA CAGGTTTACC AGGACTGGCA GGACAGCCAG GCATACAAGG ATTACATGGA 
    CTCAAGGGGG AGAAGGGAGA TGCCTGTGAC TCATGTCCCA TAATCGGTGG AGGAGATTCT 
    GATGTTTCCG GTATCCCTGG AAGACCTGGG GAAAAAGGAG AACAAGGGCC TCCAGGCATA 
    GGACAACCAG GAAAACTTGG TCAGCCAGGG CTTCCTGGAA TTCAGGGAAC ACACGGAATT 
    AAAGGTGCAC AGGGGGAGCC AGGACCACCA GGAGAAGGAA AAAGAGGTCC AGAGGGAGAA 
    CCTGGAGAGC GTGGTTTGCC AGGGAAAACA GGGCCACAAG GACCCCAAGG GCCCTCTGGC 
    TTTGTTGGCT CCAAAGGTGA CAAGGGAAAC ACTGGACAAA GAGGGGCTCC AGGAGCACCT 
    GGAAATCCTG GATCGGGCAT CATGGGACCA CCAGGACATG ATGGCCTTCC AGGCCAAGCA 
    GGAGTCACTG GACTTAAAGG TGCACCGGGT GAGAAAGGAG AAAAGGGTGT TACTGGAGTG 
    TGTTCTTGCC CACCATGGAT GGATCCAGAA AATGTTGACC AAGGGAATGG AGATGTCTGG 
    CATGTTGGAA TTCAGGGCCC TCCTGGGCCT CCAGGGCCCC CAGGTCCTCC AGGACTACCT 
    GGTCTACAGG AACCCCTGGC TGCAGAAAGC AACATTGATA TCCTGAAGTG CCAAACTGAA 
    AGAGAAGATG AAGTGGGAGA TGAGCCTGAT CATGGCTGTG CGGGTGGGCA AGGGCAACCT 
    GGGGTCCCAG GATTACCAGG ACATGATGGA CTACCTGGTC CACGAGGATC TCCGGGACCT 
    CCAGGAGCTC CAGGGCCCCC AGGTTTTCCA GGCTCTCTTG GCACCCCCGG ACTACCTGGT 
    ATGCAGGGAG AAAGAGGACC ACCAGGGCTA CATGGAGAAA AAGGGGAGCT GGGACCCCCT 
    GGACTTTCTG GTTATCCTGG AAATATGGGA CCCCCAGGCC TTCCAGGTAG TAAAGGAGAG 
    CGGGGATACC ATGGACCTAC AGGAGAGAAA GGAGAGTCGG GTCCTCCTGG TATTCCGGGC 
    GTTCCTGGTC CTGCTGGCCC TACTGGACCA AGAGGTGAAC GTGGAACTTC AGGGAGTTCA 
    GGAGAGAAAG GTGACCAGGG ATTTTCAGGA CCCCCCGGTT TCCCAGGCCC TGCAGGACCT 
    CCAGGTTTTC CTGGAAAGCC TGGGTCTACT GGACCACCTG GGCCTGCTGC TGAAAAGGGT 
    TCAGAGGGAT TACGCGGTTC ATCAGGACTA CCTGGGTCAT CAGGCCCACC AGGACCTCCT 
    GGAATACAGG GTCCCCCTGG AATTGAAGGA CTAGACGGGA AGGATGGGAA ACCAGGACTG 
    AGGGGAGAAG TGGGACCCCC TGGGCCTCCT GGGCATAAGG GTATTCCAGG ATTCAAAGGA 
    AAAACAGGAC ATCCTGGCCT GCCTGGGCAA AAGGGAGACT GTGGTCCTTC AGGTCCTTCG 
    GGCACTACTG GCAGGCCTGG AGCAGAGGGC GATCCTGGTC CAATGGGTCA ACCAGGCCGC 
    CCAGGACCTC CTGGAAACTT GGGAGCTGCA GGACTTCCAG GGCAACCAGG CAATCCTGGT 
    CCCCCTGGGG TGGGTCTTAA GGGTGACCGA GGACCACCAG GTGACCGAGG ATCAATGGGT 
    CTTCCAGGTG AGCCAGGTTC CCCAGGACAC CCAGGACCTG TTGGTGAAAT GGGTTCAGAT 
    GGTCCTATGG GTAAGGAGGG TTCTTCTGGA AGGCCAGGAA CTCCTGGTTC TCCTGGAGAG 
    AAGGGTGACA CCGGGGCTCC TGGACCTGCA GGCTCCCCTG GAGAAAGAGG AAGGCCAGGA 
    CCACCAGGAA TGTCATCAGA ATTTACAAAA AGCGAGTCAT TAGGAATAGT TGGACCAAGA 
    GGACCTCCAG GGGAAAGGGG TTCTTCTGGA CATCCAGGAC CTGCTGGGTC ACCAGGAAGC 
    CCAGGACTTC CAGGAACACC GGCTGAATCC ATCAGTTATG ACGAAATTAA GAGAATGATA 
    CGACAAGAGA TGATCAAGAT CTTTGATGAG AGGATGGCGT ATTATACAAC CCGCATGCAG 
    ATGCCATTGG AGATGGTTTC ATCACCAGGA AGACCAGGTC CTCCTGGAAA GGATGGAAGC 
    CAAGGACGTC CAGGTACCCC TGGATCACCC GGACTACCAG GACAAATAGG TCGTGAGGGG 
    CGACCAGGTG CCCCAGGAAT GAGAGGAGAA CCTGGATCAA AAGGAGAAAA GGGGACAAAT 
    GGTATTGGTA TCATGGGCGA TGTTGGGCCT CCTGGTTCCC CAGGACCACA AGGGCCACCT 
    GGATATGGCA AACTGGGATT ACCAGGCCCA ATGGGACAGC AAGGTATACC AGGTATTCCA 
    GGATCTCCAG GTTCAAAAGG TTATCCAGGA AAAGATGGTA GATGTAACCC CTCAGACTGC 
    CTTGGTATGA TGGCCGTGCA AGAGTACCAG TCAAAGAGTA TGAAGGGTCC AGGGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_018102241.1
    CDS193..4869
    Translation

    Target ORF information:

    RefSeq Version XM_018246752.1
    Organism Xenopus laevis(African clawed frog)
    Definition Xenopus laevis collagen, type XVI, alpha 1 L homeolog (col16a1.L), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018246752.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGTGGTTAC TCCTGACGTC TGTGTTTTGG TTGCTCAGGT GCTTAGCTCT CAGCGAAGGA 
    AGAATATTAC CTCACACAGG AGAACAGTGT CCAAGTTTAC AACATGAAGG AATAAACACT 
    AATGGAAACT CAAATAGTAC AGGATTCAAT CTCATCCGTA GATTTTCTCT CCAGAAGATG 
    AGCTCAGTGA AAAAAATTCG AAACCCTAAA GGACCTGTTA TCATGCGTCT TGGAGGGCCC 
    AAGCTAGTGG AGCCAACATT ACAGGTGTTC CCTCACGGCA TCCCTGATGA GTTTACTCTT 
    GTCATATCCT TGTTGTTAAA GAAGCAGACA ACTGATGAAG ATTGGTACCT CTTCCAAGTC 
    AGTGACCAGA TGGGATACCC ACAGGTCTCA CTCAGTATTA ATGGCGCAGA CAGGAGTCTG 
    GAATTTCGTG CCAAAGGACG TGACAAAGAG TATGTGAGCT GTACATTTGC TGGGCAAGGG 
    GTGTATTCTT TATTTGACAA TGGATGGCAC AAGATTGTGC TAAGTGTGCA GGAGAAAACG 
    GTGTCTGTTC ACATCGACTG CAGCTTTATC TCCAGCAAAC CCATTGAGCC CAGAAGGGCA 
    CTGGCCAGTG AAGGACACAC CTTTATAGGT TTGGATGCAG CTAATGGTGT ACCAGTTCAT 
    TTTGATATTC AGAAGTTCCT TATGTACTGT GATCCCCTAA TGGCAATGCA AGAGGGGTGC 
    TGTGAGATCC GACCATCTGG TTGCAACCCT GAGGCTCCCA AGACAAGAAG AAATGTGGAA 
    GTGGCTGAAA GTGTACAGAA TACCAACCTT ATAGACATAC CTCATAAAAC CAAGCAGCAA 
    GGATATACTA GATGCTTCTG TCTGGAGGAG GCTTTGGAAA GAAGGGGTGG AAAAGTGTCT 
    TCTGGAATGC CTGTTGAGTT GCCTGCAGAG TGTGCATCAT GTGCTTTCCA GCTCCCTGAA 
    AGAAATGTCA CAATGGGACC TCCTGGCCCC AGGGGGTTGA AAGGGGAAGG AGGACAGCCT 
    GGAACTTATG GACTAAAAGG GGAGAAAGGA GAGAGGGGGA CAGACTGTAT TCGGACTTCA 
    GCTCAAGGAC CATTACAGTG CGCTGAGGGT ACAAAGGGAG AGAAAGGAGA AAGTGGGCAA 
    GAGGGACCTA GAGGATATGA AGGGTCATCA GGTCAAGATG GGGAAAAAGG TCAAAAAGGT 
    GAAAGGGGAG ACTTTGGAAT GAAAGGATCA CATGGATCAC CAGGACGAGA TGGAAGACCT 
    GGGGAAATCT GTGTGATGGG ACCTAAAGGT CAAAAGGGAC AGACTGGCAT TGTTGGTCCA 
    GAAGGTCTTG CAGGAGAACC AGGTCCTCCA GGAAAACCAG GACCTCCAGG AATTGGGCTG 
    CCAGGAAAAC CTGGTGATCC TGGTGGCCCA CTTGGCCCTC CTGGGACAAA GGGCACTGCA 
    GGAACTCCTG GAAGAGATGG GGCTGTGGGA AAACCAGGTA AACCAGGCCT CCCAGGACTC 
    AGAGGAGAAA AGGGGGATCA ATGTGAGCCA TGCTCATCTT TGCCTACCGA TGGAACAAAC 
    GTGATCAGTA TTCCAGGCCA CAAAGGACAG AAAGGAGAAA TGGGAATACC AGGAATTGGG 
    GAGTCTGGGA AAGCAGGAAT CAAAGGTGAA CCAGGCATAA AAGGTGAACA GGGTTCCCTA 
    GGTTCAAATG GTATAAAAGG GGAGAAGGGG GAACCCTGCG CTTCCTGTCC AACACTATCT 
    CCTGGCATGG CCTCAATACA GAACATACCA AAGGGACTGA AGGGAGAACC TGGGGAGACT 
    GGAGTTGGAG TGACTGGACT ACCAGGAAAA ATAGGGATAC CTGGATTGTC TGGGCCCAAA 
    GGAGAAAAGG GGGATTTTGG GCCTCAAGGA CCACCGGGAA CACCGGGCTC GCCAGGAGAA 
    CTAGGGAGAA TTGGACAAAC TGGAACTAAA GGAGAGAAGG GTGAGCCTTG CACTATGTGC 
    CCAAGTCTCC CAGCCGAAGT ATCAAAGCCA GATACTGTTA TTGCTATTCC CGGACCTCCT 
    GGACAAAAGG GAGAACCAGG AGAAGCTGGA AATGGACCAC CAGGAAAAAA CGGTAAACAA 
    GGGGAACCTG GAATGAAGGG GCGGAAAGGT GAGACTGGAG CAGCAGGGGA CCCTGGAATT 
    CCTGGAAGCA CAGGTTTACC AGGACTGGCA GGACAGCCAG GCATACAAGG ATTACATGGA 
    CTCAAGGGGG AGAAGGGAGA TGCCTGTGAC TCATGTCCCA TAATCGGTGG AGGAGATTCT 
    GATGTTTCCG GTATCCCTGG AAGACCTGGG GAAAAAGGAG AACAAGGGCC TCCAGGCATA 
    GGACAACCAG GAAAACTTGG TCAGCCAGGG CTTCCTGGAA TTCAGGGAAC ACACGGAATT 
    AAAGGTGCAC AGGGGGAGCC AGGACCACCA GGAGAAGGAA AAAGAGGTCC AGAGGGAGAA 
    CCTGGAGAGC GTGGTTTGCC AGGGAAAACA GGGCCACAAG GACCCCAAGG GCCCTCTGGC 
    TTTGTTGGCT CCAAAGGTGA CAAGGGAAAC ACTGGACAAA GAGGGGCTCC AGGAGCACCT 
    GGAAATCCTG GATCGGGCAT CATGGGACCA CCAGGACATG ATGGCCTTCC AGGCCAAGCA 
    GGAGTCACTG GACTTAAAGG TGCACCGGGT GAGAAAGGAG AAAAGGGTGT TACTGGAGTG 
    TGTTCTTGCC CACCATGGAT GGATCCAGAA AATGTTGACC AAGGGAATGG AGATGTCTGG 
    CATGTTGGAA TTCAGGGCCC TCCTGGGCCT CCAGGGCCCC CAGGTCCTCC AGGACTACCT 
    GGTCTACAGG AACCCCTGGC TGCAGAAAGC AACATTGATA TCCTGAAGTG CCAAACTGAA 
    AGAGAAGATG AAGTGGGAGA TGAGCCTGAT CATGGCTGTG CGGGTGGGCA AGGGCAACCT 
    GGGGTCCCAG GATTACCAGG ACATGATGGA CTACCTGGTC CACGAGGATC TCCGGGACCT 
    CCAGGAGCTC CAGGGCCCCC AGGTTTTCCA GGCTCTCTTG GCACCCCCGG ACTACCTGGT 
    ATGCAGGGAG AAAGAGGACC ACCAGGGCTA CATGGAGAAA AAGGGGAGCT GGGACCCCCT 
    GGACTTTCTG GTTATCCTGG AAATATGGGA CCCCCAGGCC TTCCAGGTAG TAAAGGAGAG 
    CGGGGATACC ATGGACCTAC AGGAGAGAAA GGAGAGTCGG GTCCTCCTGG TATTCCGGGC 
    GTTCCTGGTC CTGCTGGCCC TACTGGACCA AGAGGTGAAC GTGGAACTTC AGGGAGTTCA 
    GGAGAGAAAG GTGACCAGGG ATTTTCAGGA CCCCCCGGTT TCCCAGGCCC TGCAGGACCT 
    CCAGGTTTTC CTGGAAAGCC TGGGTCTACT GGACCACCTG GGCCTGCTGC TGAAAAGGGT 
    TCAGAGGGAT TACGCGGTTC ATCAGGACTA CCTGGGTCAT CAGGCCCACC AGGACCTCCT 
    GGAATACAGG GTCCCCCTGG AATTGAAGGA CTAGACGGGA AGGATGGGAA ACCAGGACTG 
    AGGGGAGAAG TGGGACCCCC TGGGCCTCCT GGGCATAAGG GTATTCCAGG ATTCAAAGGA 
    AAAACAGGAC ATCCTGGCCT GCCTGGGCAA AAGGGAGACT GTGGTCCTTC AGGTCCTTCG 
    GGCACTACTG GCAGGCCTGG AGCAGAGGGC GATCCTGGTC CAATGGGTCA ACCAGGCCGC 
    CCAGGACCTC CTGGAAACTT GGGAGCTGCA GGACTTCCAG GGCAACCAGG CAATCCTGGT 
    CCCCCTGGGG TGGGTCTTAA GGGTGACCGA GGACCACCAG GTGACCGAGG ATCAATGGGT 
    CTTCCAGGTG AGCCAGGTTC CCCAGGACAC CCAGGACCTG TTGGTGAAAT GGGTTCAGAT 
    GGTCCTATGG GTAAGGAGGG TTCTTCTGGA AGGCCAGGAA CTCCTGGTTC TCCTGGAGAG 
    AAGGGTGACA CCGGGGCTCC TGGACCTGCA GGCTCCCCTG GAGAAAGAGG AAGGCCAGGA 
    CCACCAGGAA TGTCATCAGA ATTTACAAAA AGCGAGTCAT TAGGAATAGT TGGACCAAGA 
    GGACCTCCAG GGGAAAGGGG TTCTTCTGGA CATCCAGGAC CTGCTGGGTC ACCAGGAAGC 
    CCAGGACTTC CAGGAACACC GGCTGAATCC ATCAGTTATG ACGAAATTAA GAGAATGATA 
    CGACAAGAGA TGATCAAGAT CTTTGATGAG AGGATGGCGT ATTATACAAC CCGCATGCAG 
    ATGCCATTGG AGATGGTTTC ATCACCAGGA AGACCAGGTC CTCCTGGAAA GGATGGAAGC 
    CAAGGACGTC CAGGTACCCC TGGATCACCC GGACTACCAG GACAAATAGG TCGTGAGGGG 
    CGACCAGGTG CCCCAGGAAT GAGAGGAGAA CCTGGATCAA AAGGAGAAAA GGGGACAAAT 
    GGTATTGGTA TCATGGGCGA TGTTGGGCCT CCTGGTTCCC CAGGACCACA AGGGCCACCT 
    GGATATGGCA AACTGGGATT ACCAGGCCCA ATGGGACAGC AAGGTATACC AGGTATTCCA 
    GGATCTCCAG GTTCAAAAGG TTATCCAGGA AAAGATGGTA GATGTAACCC CTCAGACTGC 
    CTTGGTATGA TGGCCGTGCA AGAGTACCAG TCAAAGAGTA TGAAGGGTCC AGGGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    col16a1.L ( XM_018246753.1 ) cDNA ORF clone, Xenopus laevis(African clawed frog) -> XP_018102242.1 Xenopus laevis collagen, type XVI, alpha 1 L homeolog (col16a1.L), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OAf20192
    Clone ID Related Accession (Same CDS sequence) XM_018246753.1
    Accession Version XM_018246753.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4632bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-09-19
    Organism Xenopus laevis(African clawed frog)
    Product collagen alpha-1(XVI) chain isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030726.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus laevis Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGTGGTTAC TCCTGACGTC TGTGTTTTGG TTGCTCAGGT GCTTAGCTCT CAGCGAAGGA 
    AGAATATTAC CTCACACAGG AGAACAGTGT CCAAGTTTAC AACATGAAGG AATAAACACT 
    AATGGAAACT CAAATAGTAC AGGATTCAAT CTCATCCGTA GATTTTCTCT CCAGAAGATG 
    AGCTCAGTGA AAAAAATTCG AAACCCTAAA GGACCTGTTA TCATGCGTCT TGGAGGGCCC 
    AAGCTAGTGG AGCCAACATT ACAGGTGTTC CCTCACGGCA TCCCTGATGA GTTTACTCTT 
    GTCATATCCT TGTTGTTAAA GAAGCAGACA ACTGATGAAG ATTGGTACCT CTTCCAAGTC 
    AGTGACCAGA TGGGATACCC ACAGGTCTCA CTCAGTATTA ATGGCGCAGA CAGGAGTCTG 
    GAATTTCGTG CCAAAGGACG TGACAAAGAG TATGTGAGCT GTACATTTGC TGGGCAAGGG 
    GTGTATTCTT TATTTGACAA TGGATGGCAC AAGATTGTGC TAAGTGTGCA GGAGAAAACG 
    GTGTCTGTTC ACATCGACTG CAGCTTTATC TCCAGCAAAC CCATTGAGCC CAGAAGGGCA 
    CTGGCCAGTG AAGGACACAC CTTTATAGGT TTGGATGCAG CTAATGGTGT ACCAGTTCAT 
    TTTGATATTC AGAAGTTCCT TATGTACTGT GATCCCCTAA TGGCAATGCA AGAGGGGTGC 
    TGTGAGATCC GACCATCTGG TTGCAACCCT GAGGCTCCCA AGACAAGAAG AAATGTGGAA 
    GTGGCTGAAA GTGTACAGAA TACCAACCTT ATAGACATAC CTCATAAAAC CAAGCAGCAA 
    GGATATACTA GATGCTTCTG TCTGGAGGAG GCTTTGGAAA GAAGGGGTGG AAAAGTGTCT 
    TCTGGAATGC CTGTTGAGTT GCCTGCAGAG TGTGCATCAT GTGCTTTCCA GCTCCCTGAA 
    AGAAATGTCA CAATGGGACC TCCTGGCCCC AGGGGGTTGA AAGGGGAAGG AGGACAGCCT 
    GGAACTTATG GACTAAAAGG GGAGAAAGGA GAGAGGGGGA CAGACTGTAT TCGGACTTCA 
    GCTCAAGGAC CATTACAGTG CGCTGAGGGT ACAAAGGGAG AGAAAGGAGA AAGTGGGCAA 
    GAGGGACCTA GAGGATATGA AGGGTCATCA GGTCAAGATG GGGAAAAAGG TCAAAAAGGT 
    GAAAGGGGAG ACTTTGGAAT GAAAGGATCA CATGGATCAC CAGGACGAGA TGGAAGACCT 
    GGGGAAATCT GTGTGATGGG ACCTAAAGGT CAAAAGGGAC AGACTGGCAT TGTTGGTCCA 
    GAAGGTCTTG CAGGAGAACC AGGTCCTCCA GGAAAACCAG GACCTCCAGG AATTGGGCTG 
    CCAGGAAAAC CTGGTGATCC TGGTGGCCCA CTTGGCCCTC CTGGGACAAA GGGCACTGCA 
    GGAACTCCTG GAAGAGATGG GGCTGTGGGA AAACCAGGTA AACCAGGCCT CCCAGGACTC 
    AGAGGAGAAA AGGGGGATCA ATGTGAGCCA TGCTCATCTT TGCCTACCGA TGGAACAAAC 
    GTGATCAGTA TTCCAGGCCA CAAAGGACAG AAAGGAGAAA TGGGAATACC AGGAATTGGG 
    GAGTCTGGGA AAGCAGGAAT CAAAGGTGAA CCAGGCATAA AAGGTGAACA GGGTTCCCTA 
    GGTTCAAATG GTATAAAAGG GGAGAAGGGG GAACCCTGCG CTTCCTGTCC AACACTATCT 
    CCTGGCATGG CCTCAATACA GAACATACCA AAGGGACTGA AGGGAGAACC TGGGGAGACT 
    GGAGTTGGAG TGACTGGACT ACCAGGAAAA ATAGGGATAC CTGGATTGTC TGGGCCCAAA 
    GGAGAAAAGG GGGATTTTGG GCCTCAAGGA CCACCGGGAA CACCGGGCTC GCCAGGAGAA 
    CTAGGGAGAA TTGGACAAAC TGGAACTAAA GGAGAGAAGG GTGAGCCTTG CACTATGTGC 
    CCAAGTCTCC CAGCCGAAGT ATCAAAGCCA GATACTGTTA TTGCTATTCC CGGACCTCCT 
    GGACAAAAGG GAGAACCAGG AGAAGCTGGA AATGGACCAC CAGGAAAAAA CGGTAAACAA 
    GGGGAACCTG GAATGAAGGG GCGGAAAGGT GAGACTGGAG CAGCAGGGGA CCCTGGAATT 
    CCTGGAAGCA CAGGTTTACC AGGACTGGCA GGACAGCCAG GCATACAAGG ATTACATGGA 
    CTCAAGGGGG AGAAGGGAGA TGCCTGTGAC TCATGTCCCA TAATCGGTGG AGGAGATTCT 
    GATGTTTCCG GTATCCCTGG AAGACCTGGG GAAAAAGGAG AACAAGGGCC TCCAGGCATA 
    GGACAACCAG GAAAACTTGG TCAGCCAGGG CTTCCTGGAA TTCAGGGAAC ACACGGAATT 
    AAAGGTGCAC AGGGGGAGCC AGGACCACCA GGAGAAGGAA AAAGAGGTCC AGAGGGAGAA 
    CCTGGAGAGC GTGGTTTGCC AGGGAAAACA GGGCCACAAG GACCCCAAGG GCCCTCTGGC 
    TTTGTTGGCT CCAAAGGTGA CAAGGGAAAC ACTGGACAAA GAGGGGCTCC AGGAGCACCT 
    GGAAATCCTG GATCGGGCAT CATGGGACCA CCAGGACATG ATGGCCTTCC AGGCCAAGCA 
    GGAGTCACTG GACTTAAAGG TGCACCGGGT GAGAAAGGAG AAAAGGGTGT TACTGGAGTG 
    TGTTCTTGCC CACCATGGAT GGATCCAGAA AATGTTGACC AAGGGAATGG AGATGTCTGG 
    CATGTTGGAA TTCAGGGCCC TCCTGGGCCT CCAGGGCCCC CAGGTCCTCC AGGACTACCT 
    GGTCTACAGG AACCCCTGGC TGCAGAAAGC AACATTGATA TCCTGAAGTG CCAAACTGAA 
    AGAGAAGATG AAGTGGGAGA TGAGCCTGAT CATGGCTGTG CGGGTGGGCA AGGGCAACCT 
    GGGGTCCCAG GATTACCAGG ACATGATGGA CTACCTGGTC CACGAGGATC TCCGGGACCT 
    CCAGGAGCTC CAGGTATGCA GGGAGAAAGA GGACCACCAG GGCTACATGG AGAAAAAGGG 
    GAGCTGGGAC CCCCTGGACT TTCTGGTTAT CCTGGAAATA TGGGACCCCC AGGCCTTCCA 
    GGTAGTAAAG GAGAGCGGGG ATACCATGGA CCTACAGGAG AGAAAGGAGA GTCGGGTCCT 
    CCTGGTATTC CGGGCGTTCC TGGTCCTGCT GGCCCTACTG GACCAAGAGG TGAACGTGGA 
    ACTTCAGGGA GTTCAGGAGA GAAAGGTGAC CAGGGATTTT CAGGACCCCC CGGTTTCCCA 
    GGCCCTGCAG GACCTCCAGG TTTTCCTGGA AAGCCTGGGT CTACTGGACC ACCTGGGCCT 
    GCTGCTGAAA AGGGTTCAGA GGGATTACGC GGTTCATCAG GACTACCTGG GTCATCAGGC 
    CCACCAGGAC CTCCTGGAAT ACAGGGTCCC CCTGGAATTG AAGGACTAGA CGGGAAGGAT 
    GGGAAACCAG GACTGAGGGG AGAAGTGGGA CCCCCTGGGC CTCCTGGGCA TAAGGGTATT 
    CCAGGATTCA AAGGAAAAAC AGGACATCCT GGCCTGCCTG GGCAAAAGGG AGACTGTGGT 
    CCTTCAGGTC CTTCGGGCAC TACTGGCAGG CCTGGAGCAG AGGGCGATCC TGGTCCAATG 
    GGTCAACCAG GCCGCCCAGG ACCTCCTGGA AACTTGGGAG CTGCAGGACT TCCAGGGCAA 
    CCAGGCAATC CTGGTCCCCC TGGGGTGGGT CTTAAGGGTG ACCGAGGACC ACCAGGTGAC 
    CGAGGATCAA TGGGTCTTCC AGGTGAGCCA GGTTCCCCAG GACACCCAGG ACCTGTTGGT 
    GAAATGGGTT CAGATGGTCC TATGGGTAAG GAGGGTTCTT CTGGAAGGCC AGGAACTCCT 
    GGTTCTCCTG GAGAGAAGGG TGACACCGGG GCTCCTGGAC CTGCAGGCTC CCCTGGAGAA 
    AGAGGAAGGC CAGGACCACC AGGAATGTCA TCAGAATTTA CAAAAAGCGA GTCATTAGGA 
    ATAGTTGGAC CAAGAGGACC TCCAGGGGAA AGGGGTTCTT CTGGACATCC AGGACCTGCT 
    GGGTCACCAG GAAGCCCAGG ACTTCCAGGA ACACCGGCTG AATCCATCAG TTATGACGAA 
    ATTAAGAGAA TGATACGACA AGAGATGATC AAGATCTTTG ATGAGAGGAT GGCGTATTAT 
    ACAACCCGCA TGCAGATGCC ATTGGAGATG GTTTCATCAC CAGGAAGACC AGGTCCTCCT 
    GGAAAGGATG GAAGCCAAGG ACGTCCAGGT ACCCCTGGAT CACCCGGACT ACCAGGACAA 
    ATAGGTCGTG AGGGGCGACC AGGTGCCCCA GGAATGAGAG GAGAACCTGG ATCAAAAGGA 
    GAAAAGGGGA CAAATGGTAT TGGTATCATG GGCGATGTTG GGCCTCCTGG TTCCCCAGGA 
    CCACAAGGGC CACCTGGATA TGGCAAACTG GGATTACCAG GCCCAATGGG ACAGCAAGGT 
    ATACCAGGTA TTCCAGGATC TCCAGGTTCA AAAGGTTATC CAGGAAAAGA TGGTAGATGT 
    AACCCCTCAG ACTGCCTTGG TATGATGGCC GTGCAAGAGT ACCAGTCAAA GAGTATGAAG 
    GGTCCAGGGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_018102242.1
    CDS193..4824
    Translation

    Target ORF information:

    RefSeq Version XM_018246753.1
    Organism Xenopus laevis(African clawed frog)
    Definition Xenopus laevis collagen, type XVI, alpha 1 L homeolog (col16a1.L), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018246753.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGTGGTTAC TCCTGACGTC TGTGTTTTGG TTGCTCAGGT GCTTAGCTCT CAGCGAAGGA 
    AGAATATTAC CTCACACAGG AGAACAGTGT CCAAGTTTAC AACATGAAGG AATAAACACT 
    AATGGAAACT CAAATAGTAC AGGATTCAAT CTCATCCGTA GATTTTCTCT CCAGAAGATG 
    AGCTCAGTGA AAAAAATTCG AAACCCTAAA GGACCTGTTA TCATGCGTCT TGGAGGGCCC 
    AAGCTAGTGG AGCCAACATT ACAGGTGTTC CCTCACGGCA TCCCTGATGA GTTTACTCTT 
    GTCATATCCT TGTTGTTAAA GAAGCAGACA ACTGATGAAG ATTGGTACCT CTTCCAAGTC 
    AGTGACCAGA TGGGATACCC ACAGGTCTCA CTCAGTATTA ATGGCGCAGA CAGGAGTCTG 
    GAATTTCGTG CCAAAGGACG TGACAAAGAG TATGTGAGCT GTACATTTGC TGGGCAAGGG 
    GTGTATTCTT TATTTGACAA TGGATGGCAC AAGATTGTGC TAAGTGTGCA GGAGAAAACG 
    GTGTCTGTTC ACATCGACTG CAGCTTTATC TCCAGCAAAC CCATTGAGCC CAGAAGGGCA 
    CTGGCCAGTG AAGGACACAC CTTTATAGGT TTGGATGCAG CTAATGGTGT ACCAGTTCAT 
    TTTGATATTC AGAAGTTCCT TATGTACTGT GATCCCCTAA TGGCAATGCA AGAGGGGTGC 
    TGTGAGATCC GACCATCTGG TTGCAACCCT GAGGCTCCCA AGACAAGAAG AAATGTGGAA 
    GTGGCTGAAA GTGTACAGAA TACCAACCTT ATAGACATAC CTCATAAAAC CAAGCAGCAA 
    GGATATACTA GATGCTTCTG TCTGGAGGAG GCTTTGGAAA GAAGGGGTGG AAAAGTGTCT 
    TCTGGAATGC CTGTTGAGTT GCCTGCAGAG TGTGCATCAT GTGCTTTCCA GCTCCCTGAA 
    AGAAATGTCA CAATGGGACC TCCTGGCCCC AGGGGGTTGA AAGGGGAAGG AGGACAGCCT 
    GGAACTTATG GACTAAAAGG GGAGAAAGGA GAGAGGGGGA CAGACTGTAT TCGGACTTCA 
    GCTCAAGGAC CATTACAGTG CGCTGAGGGT ACAAAGGGAG AGAAAGGAGA AAGTGGGCAA 
    GAGGGACCTA GAGGATATGA AGGGTCATCA GGTCAAGATG GGGAAAAAGG TCAAAAAGGT 
    GAAAGGGGAG ACTTTGGAAT GAAAGGATCA CATGGATCAC CAGGACGAGA TGGAAGACCT 
    GGGGAAATCT GTGTGATGGG ACCTAAAGGT CAAAAGGGAC AGACTGGCAT TGTTGGTCCA 
    GAAGGTCTTG CAGGAGAACC AGGTCCTCCA GGAAAACCAG GACCTCCAGG AATTGGGCTG 
    CCAGGAAAAC CTGGTGATCC TGGTGGCCCA CTTGGCCCTC CTGGGACAAA GGGCACTGCA 
    GGAACTCCTG GAAGAGATGG GGCTGTGGGA AAACCAGGTA AACCAGGCCT CCCAGGACTC 
    AGAGGAGAAA AGGGGGATCA ATGTGAGCCA TGCTCATCTT TGCCTACCGA TGGAACAAAC 
    GTGATCAGTA TTCCAGGCCA CAAAGGACAG AAAGGAGAAA TGGGAATACC AGGAATTGGG 
    GAGTCTGGGA AAGCAGGAAT CAAAGGTGAA CCAGGCATAA AAGGTGAACA GGGTTCCCTA 
    GGTTCAAATG GTATAAAAGG GGAGAAGGGG GAACCCTGCG CTTCCTGTCC AACACTATCT 
    CCTGGCATGG CCTCAATACA GAACATACCA AAGGGACTGA AGGGAGAACC TGGGGAGACT 
    GGAGTTGGAG TGACTGGACT ACCAGGAAAA ATAGGGATAC CTGGATTGTC TGGGCCCAAA 
    GGAGAAAAGG GGGATTTTGG GCCTCAAGGA CCACCGGGAA CACCGGGCTC GCCAGGAGAA 
    CTAGGGAGAA TTGGACAAAC TGGAACTAAA GGAGAGAAGG GTGAGCCTTG CACTATGTGC 
    CCAAGTCTCC CAGCCGAAGT ATCAAAGCCA GATACTGTTA TTGCTATTCC CGGACCTCCT 
    GGACAAAAGG GAGAACCAGG AGAAGCTGGA AATGGACCAC CAGGAAAAAA CGGTAAACAA 
    GGGGAACCTG GAATGAAGGG GCGGAAAGGT GAGACTGGAG CAGCAGGGGA CCCTGGAATT 
    CCTGGAAGCA CAGGTTTACC AGGACTGGCA GGACAGCCAG GCATACAAGG ATTACATGGA 
    CTCAAGGGGG AGAAGGGAGA TGCCTGTGAC TCATGTCCCA TAATCGGTGG AGGAGATTCT 
    GATGTTTCCG GTATCCCTGG AAGACCTGGG GAAAAAGGAG AACAAGGGCC TCCAGGCATA 
    GGACAACCAG GAAAACTTGG TCAGCCAGGG CTTCCTGGAA TTCAGGGAAC ACACGGAATT 
    AAAGGTGCAC AGGGGGAGCC AGGACCACCA GGAGAAGGAA AAAGAGGTCC AGAGGGAGAA 
    CCTGGAGAGC GTGGTTTGCC AGGGAAAACA GGGCCACAAG GACCCCAAGG GCCCTCTGGC 
    TTTGTTGGCT CCAAAGGTGA CAAGGGAAAC ACTGGACAAA GAGGGGCTCC AGGAGCACCT 
    GGAAATCCTG GATCGGGCAT CATGGGACCA CCAGGACATG ATGGCCTTCC AGGCCAAGCA 
    GGAGTCACTG GACTTAAAGG TGCACCGGGT GAGAAAGGAG AAAAGGGTGT TACTGGAGTG 
    TGTTCTTGCC CACCATGGAT GGATCCAGAA AATGTTGACC AAGGGAATGG AGATGTCTGG 
    CATGTTGGAA TTCAGGGCCC TCCTGGGCCT CCAGGGCCCC CAGGTCCTCC AGGACTACCT 
    GGTCTACAGG AACCCCTGGC TGCAGAAAGC AACATTGATA TCCTGAAGTG CCAAACTGAA 
    AGAGAAGATG AAGTGGGAGA TGAGCCTGAT CATGGCTGTG CGGGTGGGCA AGGGCAACCT 
    GGGGTCCCAG GATTACCAGG ACATGATGGA CTACCTGGTC CACGAGGATC TCCGGGACCT 
    CCAGGAGCTC CAGGTATGCA GGGAGAAAGA GGACCACCAG GGCTACATGG AGAAAAAGGG 
    GAGCTGGGAC CCCCTGGACT TTCTGGTTAT CCTGGAAATA TGGGACCCCC AGGCCTTCCA 
    GGTAGTAAAG GAGAGCGGGG ATACCATGGA CCTACAGGAG AGAAAGGAGA GTCGGGTCCT 
    CCTGGTATTC CGGGCGTTCC TGGTCCTGCT GGCCCTACTG GACCAAGAGG TGAACGTGGA 
    ACTTCAGGGA GTTCAGGAGA GAAAGGTGAC CAGGGATTTT CAGGACCCCC CGGTTTCCCA 
    GGCCCTGCAG GACCTCCAGG TTTTCCTGGA AAGCCTGGGT CTACTGGACC ACCTGGGCCT 
    GCTGCTGAAA AGGGTTCAGA GGGATTACGC GGTTCATCAG GACTACCTGG GTCATCAGGC 
    CCACCAGGAC CTCCTGGAAT ACAGGGTCCC CCTGGAATTG AAGGACTAGA CGGGAAGGAT 
    GGGAAACCAG GACTGAGGGG AGAAGTGGGA CCCCCTGGGC CTCCTGGGCA TAAGGGTATT 
    CCAGGATTCA AAGGAAAAAC AGGACATCCT GGCCTGCCTG GGCAAAAGGG AGACTGTGGT 
    CCTTCAGGTC CTTCGGGCAC TACTGGCAGG CCTGGAGCAG AGGGCGATCC TGGTCCAATG 
    GGTCAACCAG GCCGCCCAGG ACCTCCTGGA AACTTGGGAG CTGCAGGACT TCCAGGGCAA 
    CCAGGCAATC CTGGTCCCCC TGGGGTGGGT CTTAAGGGTG ACCGAGGACC ACCAGGTGAC 
    CGAGGATCAA TGGGTCTTCC AGGTGAGCCA GGTTCCCCAG GACACCCAGG ACCTGTTGGT 
    GAAATGGGTT CAGATGGTCC TATGGGTAAG GAGGGTTCTT CTGGAAGGCC AGGAACTCCT 
    GGTTCTCCTG GAGAGAAGGG TGACACCGGG GCTCCTGGAC CTGCAGGCTC CCCTGGAGAA 
    AGAGGAAGGC CAGGACCACC AGGAATGTCA TCAGAATTTA CAAAAAGCGA GTCATTAGGA 
    ATAGTTGGAC CAAGAGGACC TCCAGGGGAA AGGGGTTCTT CTGGACATCC AGGACCTGCT 
    GGGTCACCAG GAAGCCCAGG ACTTCCAGGA ACACCGGCTG AATCCATCAG TTATGACGAA 
    ATTAAGAGAA TGATACGACA AGAGATGATC AAGATCTTTG ATGAGAGGAT GGCGTATTAT 
    ACAACCCGCA TGCAGATGCC ATTGGAGATG GTTTCATCAC CAGGAAGACC AGGTCCTCCT 
    GGAAAGGATG GAAGCCAAGG ACGTCCAGGT ACCCCTGGAT CACCCGGACT ACCAGGACAA 
    ATAGGTCGTG AGGGGCGACC AGGTGCCCCA GGAATGAGAG GAGAACCTGG ATCAAAAGGA 
    GAAAAGGGGA CAAATGGTAT TGGTATCATG GGCGATGTTG GGCCTCCTGG TTCCCCAGGA 
    CCACAAGGGC CACCTGGATA TGGCAAACTG GGATTACCAG GCCCAATGGG ACAGCAAGGT 
    ATACCAGGTA TTCCAGGATC TCCAGGTTCA AAAGGTTATC CAGGAAAAGA TGGTAGATGT 
    AACCCCTCAG ACTGCCTTGG TATGATGGCC GTGCAAGAGT ACCAGTCAAA GAGTATGAAG 
    GGTCCAGGGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    col16a1.L ( XM_018246754.1 ) cDNA ORF clone, Xenopus laevis(African clawed frog) -> XP_018102243.1 Xenopus laevis collagen, type XVI, alpha 1 L homeolog (col16a1.L), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OAf20193
    Clone ID Related Accession (Same CDS sequence) XM_018246754.1
    Accession Version XM_018246754.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4290bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-09-19
    Organism Xenopus laevis(African clawed frog)
    Product collagen alpha-1(XVI) chain isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030726.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus laevis Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGTGGTTAC TCCTGACGTC TGTGTTTTGG TTGCTCAGGT GCTTAGCTCT CAGCGAAGGA 
    AGAATATTAC CTCACACAGG AGAACAGTGT CCAAGTTTAC AACATGAAGG AATAAACACT 
    AATGGAAACT CAAATAGTAC AGGATTCAAT CTCATCCGTA GATTTTCTCT CCAGAAGATG 
    AGCTCAGTGA AAAAAATTCG AAACCCTAAA GGACCTGTTA TCATGCGTCT TGGAGGGCCC 
    AAGCTAGTGG AGCCAACATT ACAGGTGTTC CCTCACGGCA TCCCTGATGA GTTTACTCTT 
    GTCATATCCT TGTTGTTAAA GAAGCAGACA ACTGATGAAG ATTGGTACCT CTTCCAAGTC 
    AGTGACCAGA TGGGATACCC ACAGGTCTCA CTCAGTATTA ATGGCGCAGA CAGGAGTCTG 
    GAATTTCGTG CCAAAGGACG TGACAAAGAG TATGTGAGCT GTACATTTGC TGGGCAAGGG 
    GTGTATTCTT TATTTGACAA TGGATGGCAC AAGATTGTGC TAAGTGTGCA GGAGAAAACG 
    GTGTCTGTTC ACATCGACTG CAGCTTTATC TCCAGCAAAC CCATTGAGCC CAGAAGGGCA 
    CTGGCCAGTG AAGGACACAC CTTTATAGGT TTGGATGCAG CTAATGGTGT ACCAGTTCAT 
    TTTGATATTC AGAAGTTCCT TATGTACTGT GATCCCCTAA TGGCAATGCA AGAGGGGTGC 
    TGTGAGATCC GACCATCTGG TTGCAACCCT GAGGCTCCCA AGACAAGAAG AAATGTGGAA 
    GTGGCTGAAA GTGTACAGAA TACCAACCTT ATAGACATAC CTCATAAAAC CAAGCAGCAA 
    GGATATACTA GATGCTTCTG TCTGGAGGAG GCTTTGGAAA GAAGGGGTGG AAAAGTGTCT 
    TCTGGAATGC CTGTTGAGTT GCCTGCAGAG TGTGCATCAT GTGCTTTCCA GCTCCCTGAA 
    AGAAATGTCA CAATGGGACC TCCTGGCCCC AGGGGGTTGA AAGGGGAAGG AGGACAGCCT 
    GGAACTTATG GACTAAAAGG GGAGAAAGGA GAGAGGGGGA CAGACTGTAT TCGGACTTCA 
    GCTCAAGGAC CATTACAGTG CGCTGAGGGT ACAAAGGGAG AGAAAGGAGA AAGTGGGCAA 
    GAGGGACCTA GAGGATATGA AGGGTCATCA GGTCAAGATG GGGAAAAAGG TCAAAAAGGT 
    GAAAGGGGAG ACTTTGGAAT GAAAGGATCA CATGGATCAC CAGGACGAGA TGGAAGACCT 
    GGGGAAATCT GTGTGATGGG ACCTAAAGGT CAAAAGGGAC AGACTGGCAT TGTTGGTCCA 
    GAAGGTCTTG CAGGAGAACC AGGTCCTCCA GGAAAACCAG GACCTCCAGG AATTGGGCTG 
    CCAGGAAAAC CTGGTGATCC TGGTGGCCCA CTTGGCCCTC CTGGGACAAA GGGCACTGCA 
    GGAACTCCTG GAAGAGATGG GGCTGTGGGA AAACCAGGTA AACCAGGCCT CCCAGGACTC 
    AGAGGAGAAA AGGGGGATCA ATGTGAGCCA TGCTCATCTT TGCCTACCGA TGGAACAAAC 
    GTGATCAGTA TTCCAGGCCA CAAAGGACAG AAAGGAGAAA TGGGAATACC AGGAATTGGG 
    GAGTCTGGGA AAGCAGGAAT CAAAGGTGAA CCAGGCATAA AAGGTGAACA GGGTTCCCTA 
    GGTTCAAATG GTATAAAAGG GGAGAAGGGG GAACCCTGCG CTTCCTGTCC AACACTATCT 
    CCTGGCATGG CCTCAATACA GAACATACCA AAGGGACTGA AGGGAGAACC TGGGGAGACT 
    GGAGTTGGAG TGACTGGACT ACCAGGAAAA ATAGGGATAC CTGGATTGTC TGGGCCCAAA 
    GGAGAAAAGG GGGATTTTGG GCCTCAAGGA CCACCGGGAA CACCGGGCTC GCCAGGAGAA 
    CTAGGGAGAA TTGGACAAAC TGGAACTAAA GGAGAGAAGG GTGAGCCTTG CACTATGTGC 
    CCAAGTCTCC CAGCCGAAGT ATCAAAGCCA GATACTGTTA TTGCTATTCC CGGACCTCCT 
    GGACAAAAGG GAGAACCAGG AGAAGCTGGA AATGGACCAC CAGGAAAAAA CGGTAAACAA 
    GGGGAACCTG GAATGAAGGG GCGGAAAGGT GAGACTGGAG CAGCAGGGGA CCCTGGAATT 
    CCTGGAAGCA CAGGTTTACC AGGACTGGCA GGACAGCCAG GCATACAAGG ATTACATGGA 
    CTCAAGGGGG AGAAGGGAGA TGCCTGTGAC TCATGTCCCA TAATCGGTGG AGGAGATTCT 
    GATGTTTCCG GTATCCCTGG AAGACCTGGG GAAAAAGGAG AACAAGGGCC TCCAGGCATA 
    GGACAACCAG GAAAACTTGG TCAGCCAGGG CTTCCTGGAA TTCAGGGAAC ACACGGAATT 
    AAAGGTGCAC AGGGGGAGCC AGGACCACCA GGAGAAGGAA AAAGAGGTCC AGAGGGAGAA 
    CCTGGAGAGC GTGGTTTGCC AGGGAAAACA GGGCCACAAG GACCCCAAGG GCCCTCTGGC 
    TTTGTTGGCT CCAAAGGTGA CAAGGGAAAC ACTGGACAAA GAGGGGCTCC AGGAGCACCT 
    GGAAATCCTG GATCGGGCAT CATGGGACCA CCAGGACATG ATGGCCTTCC AGGCCAAGCA 
    GGAGTCACTG GACTTAAAGG TGCACCGGGT GAGAAAGGAG AAAAGGGTGT TACTGGAGTG 
    TGTTCTTGCC CACCATGGAT GGATCCAGAA AATGTTGACC AAGGGAATGG AGATGTCTGG 
    CATGTTGGAA TTCAGGGCCC TCCTGGGCCT CCAGGGCCCC CAGGTCCTCC AGGACTACCT 
    GGTCTACAGG AACCCCTGGC TGCAGAAAGC AACATTGATA TCCTGAAGTG CCAAACTGAA 
    AGAGAAGATG AAGTGGGAGA TGAGCCTGAT CATGGCTGTG CGGGTGGGCA AGGGCAACCT 
    GGGGTCCCAG GATTACCAGG ACATGATGGA CTACCTGGTC CACGAGGATC TCCGGGACCT 
    CCAGGAGCTC CAGGGCCCCC AGGTTTTCCA GGCTCTCTTG GCACCCCCGG ACTACCTGGT 
    ATGCAGGGAG AAAGAGGACC ACCAGGGCTA CATGGAGAAA AAGGGGAGCT GGGACCCCCT 
    GGACTTTCTG GTTATCCTGG AAATATGGGA CCCCCAGGCC TTCCAGGTAG TAAAGGAGAG 
    CGGGGATACC ATGGACCTAC AGGAGAGAAA GGAGAGTCGG GTCCTCCTGG TATTCCGGGC 
    GTTCCTGGTC CTGCTGGCCC TACTGGACCA AGAGGTGAAC GTGGAACTTC AGGGAGTTCA 
    GGAGAGAAAG GTGACCAGGG ATTTTCAGGA CCCCCCGGTT TCCCAGGCCC TGCAGGACCT 
    CCAGGTTTTC CTGGAAAGCC TGGGTCTACT GGACCACCTG GGCCTGCTGC TGAAAAGGGT 
    TCAGAGGGAT TACGCGGTTC ATCAGGACTA CCTGGGTCAT CAGGCCCACC AGGACCTCCT 
    GGAATACAGG GTCCCCCTGG AATTGAAGGA CTAGACGGGA AGGATGGGAA ACCAGGACTG 
    AGGGGAGAAG TGGGACCCCC TGGGCCTCCT GGGCATAAGG GTATTCCAGG ATTCAAAGGA 
    AAAACAGGAC ATCCTGGCCT GCCTGGGCAA AAGGGAGACT GTGGTCCTTC AGGTCCTTCG 
    GGCACTACTG GCAGGCCTGG AGCAGAGGGC GATCCTGGTC CAATGGGTCA ACCAGGCCGC 
    CCAGGACCTC CTGGAAACTT GGGAGCTGCA GGACTTCCAG GGCAACCAGG CAATCCTGGT 
    CCCCCTGGGG TGGGTCTTAA GGGTGACCGA GGACCACCAG GTGACCGAGG ATCAATGGGT 
    CTTCCAGGTG AGCCAGGTTC CCCAGGACAC CCAGGACCTG TTGGTGAAAT GGGTTCAGAT 
    GGTCCTATGG GTAAGGAGGG TTCTTCTGGA AGGCCAGGAA CTCCTGGTTC TCCTGGAGAG 
    AAGGGTGACA CCGGGGCTCC TGGACCTGCA GGCTCCCCTG GAGAAAGAGG AAGGCCAGGA 
    CCACCAGGAA TGTCATCAGA ATTTACAAAA AGCGAGTCAT TAGGAATAGT TGGACCAAGA 
    GGACCTCCAG GGGAAAGGGG TTCTTCTGGA CATCCAGGAC CTGCTGGGTC ACCAGGAAGC 
    CCAGGACTTC CAGGAACACC GGCTGAATCC ATCAGTTATG ACGAAATTAA GAGAATGATA 
    CGACAAGAGA TGATCAAGAT CTTTGATGAA AATCTGGGAA TCCTCAATGA TATGAAATTG 
    GCATATTGTT TTATCATCAT CACTATCTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_018102243.1
    CDS279..4568
    Translation

    Target ORF information:

    RefSeq Version XM_018246754.1
    Organism Xenopus laevis(African clawed frog)
    Definition Xenopus laevis collagen, type XVI, alpha 1 L homeolog (col16a1.L), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018246754.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGTGGTTAC TCCTGACGTC TGTGTTTTGG TTGCTCAGGT GCTTAGCTCT CAGCGAAGGA 
    AGAATATTAC CTCACACAGG AGAACAGTGT CCAAGTTTAC AACATGAAGG AATAAACACT 
    AATGGAAACT CAAATAGTAC AGGATTCAAT CTCATCCGTA GATTTTCTCT CCAGAAGATG 
    AGCTCAGTGA AAAAAATTCG AAACCCTAAA GGACCTGTTA TCATGCGTCT TGGAGGGCCC 
    AAGCTAGTGG AGCCAACATT ACAGGTGTTC CCTCACGGCA TCCCTGATGA GTTTACTCTT 
    GTCATATCCT TGTTGTTAAA GAAGCAGACA ACTGATGAAG ATTGGTACCT CTTCCAAGTC 
    AGTGACCAGA TGGGATACCC ACAGGTCTCA CTCAGTATTA ATGGCGCAGA CAGGAGTCTG 
    GAATTTCGTG CCAAAGGACG TGACAAAGAG TATGTGAGCT GTACATTTGC TGGGCAAGGG 
    GTGTATTCTT TATTTGACAA TGGATGGCAC AAGATTGTGC TAAGTGTGCA GGAGAAAACG 
    GTGTCTGTTC ACATCGACTG CAGCTTTATC TCCAGCAAAC CCATTGAGCC CAGAAGGGCA 
    CTGGCCAGTG AAGGACACAC CTTTATAGGT TTGGATGCAG CTAATGGTGT ACCAGTTCAT 
    TTTGATATTC AGAAGTTCCT TATGTACTGT GATCCCCTAA TGGCAATGCA AGAGGGGTGC 
    TGTGAGATCC GACCATCTGG TTGCAACCCT GAGGCTCCCA AGACAAGAAG AAATGTGGAA 
    GTGGCTGAAA GTGTACAGAA TACCAACCTT ATAGACATAC CTCATAAAAC CAAGCAGCAA 
    GGATATACTA GATGCTTCTG TCTGGAGGAG GCTTTGGAAA GAAGGGGTGG AAAAGTGTCT 
    TCTGGAATGC CTGTTGAGTT GCCTGCAGAG TGTGCATCAT GTGCTTTCCA GCTCCCTGAA 
    AGAAATGTCA CAATGGGACC TCCTGGCCCC AGGGGGTTGA AAGGGGAAGG AGGACAGCCT 
    GGAACTTATG GACTAAAAGG GGAGAAAGGA GAGAGGGGGA CAGACTGTAT TCGGACTTCA 
    GCTCAAGGAC CATTACAGTG CGCTGAGGGT ACAAAGGGAG AGAAAGGAGA AAGTGGGCAA 
    GAGGGACCTA GAGGATATGA AGGGTCATCA GGTCAAGATG GGGAAAAAGG TCAAAAAGGT 
    GAAAGGGGAG ACTTTGGAAT GAAAGGATCA CATGGATCAC CAGGACGAGA TGGAAGACCT 
    GGGGAAATCT GTGTGATGGG ACCTAAAGGT CAAAAGGGAC AGACTGGCAT TGTTGGTCCA 
    GAAGGTCTTG CAGGAGAACC AGGTCCTCCA GGAAAACCAG GACCTCCAGG AATTGGGCTG 
    CCAGGAAAAC CTGGTGATCC TGGTGGCCCA CTTGGCCCTC CTGGGACAAA GGGCACTGCA 
    GGAACTCCTG GAAGAGATGG GGCTGTGGGA AAACCAGGTA AACCAGGCCT CCCAGGACTC 
    AGAGGAGAAA AGGGGGATCA ATGTGAGCCA TGCTCATCTT TGCCTACCGA TGGAACAAAC 
    GTGATCAGTA TTCCAGGCCA CAAAGGACAG AAAGGAGAAA TGGGAATACC AGGAATTGGG 
    GAGTCTGGGA AAGCAGGAAT CAAAGGTGAA CCAGGCATAA AAGGTGAACA GGGTTCCCTA 
    GGTTCAAATG GTATAAAAGG GGAGAAGGGG GAACCCTGCG CTTCCTGTCC AACACTATCT 
    CCTGGCATGG CCTCAATACA GAACATACCA AAGGGACTGA AGGGAGAACC TGGGGAGACT 
    GGAGTTGGAG TGACTGGACT ACCAGGAAAA ATAGGGATAC CTGGATTGTC TGGGCCCAAA 
    GGAGAAAAGG GGGATTTTGG GCCTCAAGGA CCACCGGGAA CACCGGGCTC GCCAGGAGAA 
    CTAGGGAGAA TTGGACAAAC TGGAACTAAA GGAGAGAAGG GTGAGCCTTG CACTATGTGC 
    CCAAGTCTCC CAGCCGAAGT ATCAAAGCCA GATACTGTTA TTGCTATTCC CGGACCTCCT 
    GGACAAAAGG GAGAACCAGG AGAAGCTGGA AATGGACCAC CAGGAAAAAA CGGTAAACAA 
    GGGGAACCTG GAATGAAGGG GCGGAAAGGT GAGACTGGAG CAGCAGGGGA CCCTGGAATT 
    CCTGGAAGCA CAGGTTTACC AGGACTGGCA GGACAGCCAG GCATACAAGG ATTACATGGA 
    CTCAAGGGGG AGAAGGGAGA TGCCTGTGAC TCATGTCCCA TAATCGGTGG AGGAGATTCT 
    GATGTTTCCG GTATCCCTGG AAGACCTGGG GAAAAAGGAG AACAAGGGCC TCCAGGCATA 
    GGACAACCAG GAAAACTTGG TCAGCCAGGG CTTCCTGGAA TTCAGGGAAC ACACGGAATT 
    AAAGGTGCAC AGGGGGAGCC AGGACCACCA GGAGAAGGAA AAAGAGGTCC AGAGGGAGAA 
    CCTGGAGAGC GTGGTTTGCC AGGGAAAACA GGGCCACAAG GACCCCAAGG GCCCTCTGGC 
    TTTGTTGGCT CCAAAGGTGA CAAGGGAAAC ACTGGACAAA GAGGGGCTCC AGGAGCACCT 
    GGAAATCCTG GATCGGGCAT CATGGGACCA CCAGGACATG ATGGCCTTCC AGGCCAAGCA 
    GGAGTCACTG GACTTAAAGG TGCACCGGGT GAGAAAGGAG AAAAGGGTGT TACTGGAGTG 
    TGTTCTTGCC CACCATGGAT GGATCCAGAA AATGTTGACC AAGGGAATGG AGATGTCTGG 
    CATGTTGGAA TTCAGGGCCC TCCTGGGCCT CCAGGGCCCC CAGGTCCTCC AGGACTACCT 
    GGTCTACAGG AACCCCTGGC TGCAGAAAGC AACATTGATA TCCTGAAGTG CCAAACTGAA 
    AGAGAAGATG AAGTGGGAGA TGAGCCTGAT CATGGCTGTG CGGGTGGGCA AGGGCAACCT 
    GGGGTCCCAG GATTACCAGG ACATGATGGA CTACCTGGTC CACGAGGATC TCCGGGACCT 
    CCAGGAGCTC CAGGGCCCCC AGGTTTTCCA GGCTCTCTTG GCACCCCCGG ACTACCTGGT 
    ATGCAGGGAG AAAGAGGACC ACCAGGGCTA CATGGAGAAA AAGGGGAGCT GGGACCCCCT 
    GGACTTTCTG GTTATCCTGG AAATATGGGA CCCCCAGGCC TTCCAGGTAG TAAAGGAGAG 
    CGGGGATACC ATGGACCTAC AGGAGAGAAA GGAGAGTCGG GTCCTCCTGG TATTCCGGGC 
    GTTCCTGGTC CTGCTGGCCC TACTGGACCA AGAGGTGAAC GTGGAACTTC AGGGAGTTCA 
    GGAGAGAAAG GTGACCAGGG ATTTTCAGGA CCCCCCGGTT TCCCAGGCCC TGCAGGACCT 
    CCAGGTTTTC CTGGAAAGCC TGGGTCTACT GGACCACCTG GGCCTGCTGC TGAAAAGGGT 
    TCAGAGGGAT TACGCGGTTC ATCAGGACTA CCTGGGTCAT CAGGCCCACC AGGACCTCCT 
    GGAATACAGG GTCCCCCTGG AATTGAAGGA CTAGACGGGA AGGATGGGAA ACCAGGACTG 
    AGGGGAGAAG TGGGACCCCC TGGGCCTCCT GGGCATAAGG GTATTCCAGG ATTCAAAGGA 
    AAAACAGGAC ATCCTGGCCT GCCTGGGCAA AAGGGAGACT GTGGTCCTTC AGGTCCTTCG 
    GGCACTACTG GCAGGCCTGG AGCAGAGGGC GATCCTGGTC CAATGGGTCA ACCAGGCCGC 
    CCAGGACCTC CTGGAAACTT GGGAGCTGCA GGACTTCCAG GGCAACCAGG CAATCCTGGT 
    CCCCCTGGGG TGGGTCTTAA GGGTGACCGA GGACCACCAG GTGACCGAGG ATCAATGGGT 
    CTTCCAGGTG AGCCAGGTTC CCCAGGACAC CCAGGACCTG TTGGTGAAAT GGGTTCAGAT 
    GGTCCTATGG GTAAGGAGGG TTCTTCTGGA AGGCCAGGAA CTCCTGGTTC TCCTGGAGAG 
    AAGGGTGACA CCGGGGCTCC TGGACCTGCA GGCTCCCCTG GAGAAAGAGG AAGGCCAGGA 
    CCACCAGGAA TGTCATCAGA ATTTACAAAA AGCGAGTCAT TAGGAATAGT TGGACCAAGA 
    GGACCTCCAG GGGAAAGGGG TTCTTCTGGA CATCCAGGAC CTGCTGGGTC ACCAGGAAGC 
    CCAGGACTTC CAGGAACACC GGCTGAATCC ATCAGTTATG ACGAAATTAA GAGAATGATA 
    CGACAAGAGA TGATCAAGAT CTTTGATGAA AATCTGGGAA TCCTCAATGA TATGAAATTG 
    GCATATTGTT TTATCATCAT CACTATCTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    col16a1.L ( XM_018246755.1 ) cDNA ORF clone, Xenopus laevis(African clawed frog) -> XP_018102244.1 Xenopus laevis collagen, type XVI, alpha 1 L homeolog (col16a1.L), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OAf20194
    Clone ID Related Accession (Same CDS sequence) XM_018246755.1
    Accession Version XM_018246755.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3711bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-09-19
    Organism Xenopus laevis(African clawed frog)
    Product collagen alpha-1(XVI) chain isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030726.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus laevis Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGTGGTTAC TCCTGACGTC TGTGTTTTGG TTGCTCAGGT GCTTAGCTCT CAGCGAAGGA 
    AGAATATTAC CTCACACAGG AGAACAGTGT CCAAGTTTAC AACATGAAGG AATAAACACT 
    AATGGAAACT CAAATAGTAC AGGATTCAAT CTCATCCGTA GATTTTCTCT CCAGAAGATG 
    AGCTCAGTGA AAAAAATTCG AAACCCTAAA GGACCTGTTA TCATGCGTCT TGGAGGGCCC 
    AAGCTAGTGG AGCCAACATT ACAGGTGTTC CCTCACGGCA TCCCTGATGA GTTTACTCTT 
    GTCATATCCT TGTTGTTAAA GAAGCAGACA ACTGATGAAG ATTGGTACCT CTTCCAAGTC 
    AGTGACCAGA TGGGATACCC ACAGGTCTCA CTCAGTATTA ATGGCGCAGA CAGGAGTCTG 
    GAATTTCGTG CCAAAGGACG TGACAAAGAG TATGTGAGCT GTACATTTGC TGGGCAAGGG 
    GTGTATTCTT TATTTGACAA TGGATGGCAC AAGATTGTGC TAAGTGTGCA GGAGAAAACG 
    GTGTCTGTTC ACATCGACTG CAGCTTTATC TCCAGCAAAC CCATTGAGCC CAGAAGGGCA 
    CTGGCCAGTG AAGGACACAC CTTTATAGGT TTGGATGCAG CTAATGGTGT ACCAGTTCAT 
    TTTGATATTC AGAAGTTCCT TATGTACTGT GATCCCCTAA TGGCAATGCA AGAGGGGTGC 
    TGTGAGATCC GACCATCTGG TTGCAACCCT GAGGCTCCCA AGACAAGAAG AAATGTGGAA 
    GTGGCTGAAA GTGTACAGAA TACCAACCTT ATAGACATAC CTCATAAAAC CAAGCAGCAA 
    GGATATACTA GATGCTTCTG TCTGGAGGAG GCTTTGGAAA GAAGGGGTGG AAAAGTGTCT 
    TCTGGAATGC CTGTTGAGTT GCCTGCAGAG TGTGCATCAT GTGCTTTCCA GCTCCCTGAA 
    AGAAATGTCA CAATGGGACC TCCTGGCCCC AGGGGGTTGA AAGGGGAAGG AGGACAGCCT 
    GGAACTTATG GACTAAAAGG GGAGAAAGGA GAGAGGGGGA CAGACTGTAT TCGGACTTCA 
    GCTCAAGGAC CATTACAGTG CGCTGAGGGT ACAAAGGGAG AGAAAGGAGA AAGTGGGCAA 
    GAGGGACCTA GAGGATATGA AGGGTCATCA GGTCAAGATG GGGAAAAAGG TCAAAAAGGT 
    GAAAGGGGAG ACTTTGGAAT GAAAGGATCA CATGGATCAC CAGGACGAGA TGGAAGACCT 
    GGGGAAATCT GTGTGATGGG ACCTAAAGGT CAAAAGGGAC AGACTGGCAT TGTTGGTCCA 
    GAAGGTCTTG CAGGAGAACC AGGTCCTCCA GGAAAACCAG GACCTCCAGG AATTGGGCTG 
    CCAGGAAAAC CTGGTCAGCC AGGGCTTCCT GGAATTCAGG GAACACACGG AATTAAAGGT 
    GCACAGGGGG AGCCAGGACC ACCAGGAGAA GGAAAAAGAG GTCCAGAGGG AGAACCTGGA 
    GAGCGTGGTT TGCCAGGGAA AACAGGGCCA CAAGGACCCC AAGGGCCCTC TGGCTTTGTT 
    GGCTCCAAAG GTGACAAGGG AAACACTGGA CAAAGAGGGG CTCCAGGAGC ACCTGGAAAT 
    CCTGGATCGG GCATCATGGG ACCACCAGGA CATGATGGCC TTCCAGGCCA AGCAGGAGTC 
    ACTGGACTTA AAGGTGCACC GGGTGAGAAA GGAGAAAAGG GTGTTACTGG AGTGTGTTCT 
    TGCCCACCAT GGATGGATCC AGAAAATGTT GACCAAGGGA ATGGAGATGT CTGGCATGTT 
    GGAATTCAGG GCCCTCCTGG GCCTCCAGGG CCCCCAGGTC CTCCAGGACT ACCTGGTCTA 
    CAGGAACCCC TGGCTGCAGA AAGCAACATT GATATCCTGA AGTGCCAAAC TGAAAGAGAA 
    GATGAAGTGG GAGATGAGCC TGATCATGGC TGTGCGGGTG GGCAAGGGCA ACCTGGGGTC 
    CCAGGATTAC CAGGACATGA TGGACTACCT GGTCCACGAG GATCTCCGGG ACCTCCAGGA 
    GCTCCAGGGC CCCCAGGTTT TCCAGGCTCT CTTGGCACCC CCGGACTACC TGGTATGCAG 
    GGAGAAAGAG GACCACCAGG GCTACATGGA GAAAAAGGGG AGCTGGGACC CCCTGGACTT 
    TCTGGTTATC CTGGAAATAT GGGACCCCCA GGCCTTCCAG GTAGTAAAGG AGAGCGGGGA 
    TACCATGGAC CTACAGGAGA GAAAGGAGAG TCGGGTCCTC CTGGTATTCC GGGCGTTCCT 
    GGTCCTGCTG GCCCTACTGG ACCAAGAGGT GAACGTGGAA CTTCAGGGAG TTCAGGAGAG 
    AAAGGTGACC AGGGATTTTC AGGACCCCCC GGTTTCCCAG GCCCTGCAGG ACCTCCAGGT 
    TTTCCTGGAA AGCCTGGGTC TACTGGACCA CCTGGGCCTG CTGCTGAAAA GGGTTCAGAG 
    GGATTACGCG GTTCATCAGG ACTACCTGGG TCATCAGGCC CACCAGGACC TCCTGGAATA 
    CAGGGTCCCC CTGGAATTGA AGGACTAGAC GGGAAGGATG GGAAACCAGG ACTGAGGGGA 
    GAAGTGGGAC CCCCTGGGCC TCCTGGGCAT AAGGGTATTC CAGGATTCAA AGGAAAAACA 
    GGACATCCTG GCCTGCCTGG GCAAAAGGGA GACTGTGGTC CTTCAGGTCC TTCGGGCACT 
    ACTGGCAGGC CTGGAGCAGA GGGCGATCCT GGTCCAATGG GTCAACCAGG CCGCCCAGGA 
    CCTCCTGGAA ACTTGGGAGC TGCAGGACTT CCAGGGCAAC CAGGCAATCC TGGTCCCCCT 
    GGGGTGGGTC TTAAGGGTGA CCGAGGACCA CCAGGTGACC GAGGATCAAT GGGTCTTCCA 
    GGTGAGCCAG GTTCCCCAGG ACACCCAGGA CCTGTTGGTG AAATGGGTTC AGATGGTCCT 
    ATGGGTAAGG AGGGTTCTTC TGGAAGGCCA GGAACTCCTG GTTCTCCTGG AGAGAAGGGT 
    GACACCGGGG CTCCTGGACC TGCAGGCTCC CCTGGAGAAA GAGGAAGGCC AGGACCACCA 
    GGAATGTCAT CAGAATTTAC AAAAAGCGAG TCATTAGGAA TAGTTGGACC AAGAGGACCT 
    CCAGGGGAAA GGGGTTCTTC TGGACATCCA GGACCTGCTG GGTCACCAGG AAGCCCAGGA 
    CTTCCAGGAA CACCGGCTGA ATCCATCAGT TATGACGAAA TTAAGAGAAT GATACGACAA 
    GAGATGATCA AGATCTTTGA TGAGAGGATG GCGTATTATA CAACCCGCAT GCAGATGCCA 
    TTGGAGATGG TTTCATCACC AGGAAGACCA GGTCCTCCTG GAAAGGATGG AAGCCAAGGA 
    CGTCCAGGTA CCCCTGGATC ACCCGGACTA CCAGGACAAA TAGGTCGTGA GGGGCGACCA 
    GGTGCCCCAG GAATGAGAGG AGAACCTGGA TCAAAAGGAG AAAAGGGGAC AAATGGTATT 
    GGTATCATGG GCGATGTTGG GCCTCCTGGT TCCCCAGGAC CACAAGGGCC ACCTGGATAT 
    GGCAAACTGG GATTACCAGG CCCAATGGGA CAGCAAGGTA TACCAGGTAT TCCAGGATCT 
    CCAGGTTCAA AAGGTTATCC AGGAAAAGAT GGTAGATGTA ACCCCTCAGA CTGCCTTGGT 
    ATGATGGCCG TGCAAGAGTA CCAGTCAAAG AGTATGAAGG GTCCAGGGTG A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_018102244.1
    CDS281..3991
    Translation

    Target ORF information:

    RefSeq Version XM_018246755.1
    Organism Xenopus laevis(African clawed frog)
    Definition Xenopus laevis collagen, type XVI, alpha 1 L homeolog (col16a1.L), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018246755.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGTGGTTAC TCCTGACGTC TGTGTTTTGG TTGCTCAGGT GCTTAGCTCT CAGCGAAGGA 
    AGAATATTAC CTCACACAGG AGAACAGTGT CCAAGTTTAC AACATGAAGG AATAAACACT 
    AATGGAAACT CAAATAGTAC AGGATTCAAT CTCATCCGTA GATTTTCTCT CCAGAAGATG 
    AGCTCAGTGA AAAAAATTCG AAACCCTAAA GGACCTGTTA TCATGCGTCT TGGAGGGCCC 
    AAGCTAGTGG AGCCAACATT ACAGGTGTTC CCTCACGGCA TCCCTGATGA GTTTACTCTT 
    GTCATATCCT TGTTGTTAAA GAAGCAGACA ACTGATGAAG ATTGGTACCT CTTCCAAGTC 
    AGTGACCAGA TGGGATACCC ACAGGTCTCA CTCAGTATTA ATGGCGCAGA CAGGAGTCTG 
    GAATTTCGTG CCAAAGGACG TGACAAAGAG TATGTGAGCT GTACATTTGC TGGGCAAGGG 
    GTGTATTCTT TATTTGACAA TGGATGGCAC AAGATTGTGC TAAGTGTGCA GGAGAAAACG 
    GTGTCTGTTC ACATCGACTG CAGCTTTATC TCCAGCAAAC CCATTGAGCC CAGAAGGGCA 
    CTGGCCAGTG AAGGACACAC CTTTATAGGT TTGGATGCAG CTAATGGTGT ACCAGTTCAT 
    TTTGATATTC AGAAGTTCCT TATGTACTGT GATCCCCTAA TGGCAATGCA AGAGGGGTGC 
    TGTGAGATCC GACCATCTGG TTGCAACCCT GAGGCTCCCA AGACAAGAAG AAATGTGGAA 
    GTGGCTGAAA GTGTACAGAA TACCAACCTT ATAGACATAC CTCATAAAAC CAAGCAGCAA 
    GGATATACTA GATGCTTCTG TCTGGAGGAG GCTTTGGAAA GAAGGGGTGG AAAAGTGTCT 
    TCTGGAATGC CTGTTGAGTT GCCTGCAGAG TGTGCATCAT GTGCTTTCCA GCTCCCTGAA 
    AGAAATGTCA CAATGGGACC TCCTGGCCCC AGGGGGTTGA AAGGGGAAGG AGGACAGCCT 
    GGAACTTATG GACTAAAAGG GGAGAAAGGA GAGAGGGGGA CAGACTGTAT TCGGACTTCA 
    GCTCAAGGAC CATTACAGTG CGCTGAGGGT ACAAAGGGAG AGAAAGGAGA AAGTGGGCAA 
    GAGGGACCTA GAGGATATGA AGGGTCATCA GGTCAAGATG GGGAAAAAGG TCAAAAAGGT 
    GAAAGGGGAG ACTTTGGAAT GAAAGGATCA CATGGATCAC CAGGACGAGA TGGAAGACCT 
    GGGGAAATCT GTGTGATGGG ACCTAAAGGT CAAAAGGGAC AGACTGGCAT TGTTGGTCCA 
    GAAGGTCTTG CAGGAGAACC AGGTCCTCCA GGAAAACCAG GACCTCCAGG AATTGGGCTG 
    CCAGGAAAAC CTGGTCAGCC AGGGCTTCCT GGAATTCAGG GAACACACGG AATTAAAGGT 
    GCACAGGGGG AGCCAGGACC ACCAGGAGAA GGAAAAAGAG GTCCAGAGGG AGAACCTGGA 
    GAGCGTGGTT TGCCAGGGAA AACAGGGCCA CAAGGACCCC AAGGGCCCTC TGGCTTTGTT 
    GGCTCCAAAG GTGACAAGGG AAACACTGGA CAAAGAGGGG CTCCAGGAGC ACCTGGAAAT 
    CCTGGATCGG GCATCATGGG ACCACCAGGA CATGATGGCC TTCCAGGCCA AGCAGGAGTC 
    ACTGGACTTA AAGGTGCACC GGGTGAGAAA GGAGAAAAGG GTGTTACTGG AGTGTGTTCT 
    TGCCCACCAT GGATGGATCC AGAAAATGTT GACCAAGGGA ATGGAGATGT CTGGCATGTT 
    GGAATTCAGG GCCCTCCTGG GCCTCCAGGG CCCCCAGGTC CTCCAGGACT ACCTGGTCTA 
    CAGGAACCCC TGGCTGCAGA AAGCAACATT GATATCCTGA AGTGCCAAAC TGAAAGAGAA 
    GATGAAGTGG GAGATGAGCC TGATCATGGC TGTGCGGGTG GGCAAGGGCA ACCTGGGGTC 
    CCAGGATTAC CAGGACATGA TGGACTACCT GGTCCACGAG GATCTCCGGG ACCTCCAGGA 
    GCTCCAGGGC CCCCAGGTTT TCCAGGCTCT CTTGGCACCC CCGGACTACC TGGTATGCAG 
    GGAGAAAGAG GACCACCAGG GCTACATGGA GAAAAAGGGG AGCTGGGACC CCCTGGACTT 
    TCTGGTTATC CTGGAAATAT GGGACCCCCA GGCCTTCCAG GTAGTAAAGG AGAGCGGGGA 
    TACCATGGAC CTACAGGAGA GAAAGGAGAG TCGGGTCCTC CTGGTATTCC GGGCGTTCCT 
    GGTCCTGCTG GCCCTACTGG ACCAAGAGGT GAACGTGGAA CTTCAGGGAG TTCAGGAGAG 
    AAAGGTGACC AGGGATTTTC AGGACCCCCC GGTTTCCCAG GCCCTGCAGG ACCTCCAGGT 
    TTTCCTGGAA AGCCTGGGTC TACTGGACCA CCTGGGCCTG CTGCTGAAAA GGGTTCAGAG 
    GGATTACGCG GTTCATCAGG ACTACCTGGG TCATCAGGCC CACCAGGACC TCCTGGAATA 
    CAGGGTCCCC CTGGAATTGA AGGACTAGAC GGGAAGGATG GGAAACCAGG ACTGAGGGGA 
    GAAGTGGGAC CCCCTGGGCC TCCTGGGCAT AAGGGTATTC CAGGATTCAA AGGAAAAACA 
    GGACATCCTG GCCTGCCTGG GCAAAAGGGA GACTGTGGTC CTTCAGGTCC TTCGGGCACT 
    ACTGGCAGGC CTGGAGCAGA GGGCGATCCT GGTCCAATGG GTCAACCAGG CCGCCCAGGA 
    CCTCCTGGAA ACTTGGGAGC TGCAGGACTT CCAGGGCAAC CAGGCAATCC TGGTCCCCCT 
    GGGGTGGGTC TTAAGGGTGA CCGAGGACCA CCAGGTGACC GAGGATCAAT GGGTCTTCCA 
    GGTGAGCCAG GTTCCCCAGG ACACCCAGGA CCTGTTGGTG AAATGGGTTC AGATGGTCCT 
    ATGGGTAAGG AGGGTTCTTC TGGAAGGCCA GGAACTCCTG GTTCTCCTGG AGAGAAGGGT 
    GACACCGGGG CTCCTGGACC TGCAGGCTCC CCTGGAGAAA GAGGAAGGCC AGGACCACCA 
    GGAATGTCAT CAGAATTTAC AAAAAGCGAG TCATTAGGAA TAGTTGGACC AAGAGGACCT 
    CCAGGGGAAA GGGGTTCTTC TGGACATCCA GGACCTGCTG GGTCACCAGG AAGCCCAGGA 
    CTTCCAGGAA CACCGGCTGA ATCCATCAGT TATGACGAAA TTAAGAGAAT GATACGACAA 
    GAGATGATCA AGATCTTTGA TGAGAGGATG GCGTATTATA CAACCCGCAT GCAGATGCCA 
    TTGGAGATGG TTTCATCACC AGGAAGACCA GGTCCTCCTG GAAAGGATGG AAGCCAAGGA 
    CGTCCAGGTA CCCCTGGATC ACCCGGACTA CCAGGACAAA TAGGTCGTGA GGGGCGACCA 
    GGTGCCCCAG GAATGAGAGG AGAACCTGGA TCAAAAGGAG AAAAGGGGAC AAATGGTATT 
    GGTATCATGG GCGATGTTGG GCCTCCTGGT TCCCCAGGAC CACAAGGGCC ACCTGGATAT 
    GGCAAACTGG GATTACCAGG CCCAATGGGA CAGCAAGGTA TACCAGGTAT TCCAGGATCT 
    CCAGGTTCAA AAGGTTATCC AGGAAAAGAT GGTAGATGTA ACCCCTCAGA CTGCCTTGGT 
    ATGATGGCCG TGCAAGAGTA CCAGTCAAAG AGTATGAAGG GTCCAGGGTG A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

見積依頼

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